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Cryptic chlorination by a non-haem iron enzyme during cyclopropyl amino acid biosynthesis

Author

Listed:
  • Frédéric H. Vaillancourt

    (Harvard Medical School)

  • Ellen Yeh

    (Harvard Medical School)

  • David A. Vosburg

    (Harvard Medical School
    Harvey Mudd College)

  • Sarah E. O'Connor

    (Harvard Medical School
    Massachusetts Institute of Technology)

  • Christopher T. Walsh

    (Harvard Medical School)

Abstract

Enzymatic incorporation of chlorine, bromine or iodine atoms occurs during the biosynthesis of more than 4,000 natural products1. Halogenation can have significant consequences for the bioactivity of these products so there is great interest in understanding the biological catalysts that perform these reactions. Enzymes that halogenate unactivated aliphatic groups have not previously been characterized. Here we report the activity of five proteins—CmaA, CmaB, CmaC, CmaD and CmaE—in the construction of coronamic acid (CMA; 1-amino-1-carboxy-2-ethylcyclopropane), a constituent of the phytotoxin coronatine synthesized by the phytopathogenic bacterium Pseudomonas syringae2. CMA derives from l-allo-isoleucine, which is covalently attached to CmaD through the actions of CmaA, a non-ribosomal peptide synthetase module, and CmaE, an unusual acyltransferase. We show that CmaB, a member of the non-haem Fe2+, α-ketoglutarate-dependent enzyme superfamily, is the first of its class to show halogenase activity, chlorinating the γ-position of l-allo-isoleucine. Another previously undescribed enzyme, CmaC, catalyses the formation of the cyclopropyl ring from the γ-Cl-l-allo-isoleucine product of the CmaB reaction. Together, CmaB and CmaC execute γ-halogenation followed by intramolecular γ-elimination, in which biological chlorination is a cryptic strategy for cyclopropyl ring formation.

Suggested Citation

  • Frédéric H. Vaillancourt & Ellen Yeh & David A. Vosburg & Sarah E. O'Connor & Christopher T. Walsh, 2005. "Cryptic chlorination by a non-haem iron enzyme during cyclopropyl amino acid biosynthesis," Nature, Nature, vol. 436(7054), pages 1191-1194, August.
    • Handle: RePEc:nat:nature:v:436:y:2005:i:7054:d:10.1038_nature03797
    DOI: 10.1038/nature03797
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    Cited by:

    1. Jie Ni & Jingyuan Zhuang & Yiming Shi & Ying-Chih Chiang & Gui-Juan Cheng, 2024. "Discovery and substrate specificity engineering of nucleotide halogenases," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    2. Shan Wang & William D. G. Brittain & Qian Zhang & Zhou Lu & Ming Him Tong & Kewen Wu & Kwaku Kyeremeh & Matthew Jenner & Yi Yu & Steven L. Cobb & Hai Deng, 2022. "Aminoacyl chain translocation catalysed by a type II thioesterase domain in an unusual non-ribosomal peptide synthetase," Nature Communications, Nature, vol. 13(1), pages 1-14, December.

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